A laser-based technique to evaluate sound generation during phonation

Investigating aeroacoustic sound generation in a measurement is challenging since the flow field needs to be highly resolved in the temporal and spatial domain. Thus, complex aeroacoustic phenomena like the mechanisms of the human voice are still not fully captured scientifically. Recent advances in...

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Autor principal: Lodermeyer, Alexander
Formato: Online
Idioma:inglês
Publicado em: FAU University Press 2026
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Acesso em linha:ONIX_20260106T140303_9783961472925_32
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author Lodermeyer, Alexander
author_browse Lodermeyer, Alexander
author_facet Lodermeyer, Alexander
author_sort Lodermeyer, Alexander
collection Directory of Open Access Books
description Investigating aeroacoustic sound generation in a measurement is challenging since the flow field needs to be highly resolved in the temporal and spatial domain. Thus, complex aeroacoustic phenomena like the mechanisms of the human voice are still not fully captured scientifically. Recent advances in optical technologies have pushed the limits of measurement resolution and accuracy, making aeroacoustic investigations potentially accessible. Therefore, as a first part of this thesis, a measurement technique is implemented that applies a hybrid acoustic PIV (HAcouPIV) approach. State-of-the-art measurement technology is combined with most recent numerical strategies in the field of acoustics. High-speed PIV is applied to determine the flow velocity, and a numerical approach computes the pressure field based on the measurement data. Then, a perturbation approach is applied to separate the sound pressure from the fluid-mechanical pressure fluctuations. In the second part of the thesis, the HAcouPIV technique is employed to investigate the sound-generating mechanisms and its radiation during human phonation. Thereby, for the first time, the acoustic source field is extracted based on a combination of experimental measurements and numerical simulations. A highly modulated source field that reaches into the supraglottal region was found as the most significant sound-generating mechanism of the phonatory process. This was shown for both broadband and harmonic content. The analysis of the vibroacoustic behavior of the vocal fold oscillation based on laser-vibrometry data revealed strong harmonic content in the glottal region of the superior vocal fold surface. Hence, it potentially contributes to a strong fluid-structure-acoustic interaction especially for the harmonic content. In conclusion, the hybrid approach of laser-based measurement techniques and numerical evaluation procedures was successfully applied. It substantiates the fundamental mechanisms that form the basis of sound generation during phonation. These results suggest to focus on the modulation of the glottal jet and its entire spatial expansion as the main component for sound generation during voiced speech.
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spelling doab-20.500.12854ir-1707892026-01-07T05:15:49Z A laser-based technique to evaluate sound generation during phonation Lodermeyer, Alexander particle image velocimetry acoustics sound generation phonation vibrometrie measurement technology fluid mechanics thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TT Other technologies and applied sciences::TTA Acoustic and sound engineering thema EDItEUR::M Medicine and Nursing::MB Medicine: general issues::MBG Medical equipment and techniques::MBGR Medical research thema EDItEUR::P Mathematics and Science::PH Physics::PHD Classical mechanics::PHDS Wave mechanics (vibration and acoustics) thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TG Mechanical engineering and materials::TGM Materials science::TGMF Engineering: Mechanics of fluids::TGMF1 Aerodynamics Investigating aeroacoustic sound generation in a measurement is challenging since the flow field needs to be highly resolved in the temporal and spatial domain. Thus, complex aeroacoustic phenomena like the mechanisms of the human voice are still not fully captured scientifically. Recent advances in optical technologies have pushed the limits of measurement resolution and accuracy, making aeroacoustic investigations potentially accessible. Therefore, as a first part of this thesis, a measurement technique is implemented that applies a hybrid acoustic PIV (HAcouPIV) approach. State-of-the-art measurement technology is combined with most recent numerical strategies in the field of acoustics. High-speed PIV is applied to determine the flow velocity, and a numerical approach computes the pressure field based on the measurement data. Then, a perturbation approach is applied to separate the sound pressure from the fluid-mechanical pressure fluctuations. In the second part of the thesis, the HAcouPIV technique is employed to investigate the sound-generating mechanisms and its radiation during human phonation. Thereby, for the first time, the acoustic source field is extracted based on a combination of experimental measurements and numerical simulations. A highly modulated source field that reaches into the supraglottal region was found as the most significant sound-generating mechanism of the phonatory process. This was shown for both broadband and harmonic content. The analysis of the vibroacoustic behavior of the vocal fold oscillation based on laser-vibrometry data revealed strong harmonic content in the glottal region of the superior vocal fold surface. Hence, it potentially contributes to a strong fluid-structure-acoustic interaction especially for the harmonic content. In conclusion, the hybrid approach of laser-based measurement techniques and numerical evaluation procedures was successfully applied. It substantiates the fundamental mechanisms that form the basis of sound generation during phonation. These results suggest to focus on the modulation of the glottal jet and its entire spatial expansion as the main component for sound generation during voiced speech. 2026-01-07T05:15:48Z 2026-01-07T05:15:48Z 2026-01-06T13:11:48Z 2020 book ONIX_20260106T140303_9783961472925_32 https://library.oapen.org/handle/20.500.12657/109605 9783961472925 9783961472918 https://directory.doabooks.org/handle/20.500.12854/170789 eng open access image/jpeg Attribution 4.0 International https://library.oapen.org/bitstream/20.500.12657/109605/1/9783961472925.pdf FAU University Press 10.25593/978-3-96147-292-5 10.25593/978-3-96147-292-5 2c600dea-eece-4066-87be-da335e323fdb 9783961472925 9783961472918 AG Universitätsverlage 187 Erlangen open access
spellingShingle particle image velocimetry
acoustics
sound generation
phonation
vibrometrie
measurement technology
fluid mechanics
thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TT Other technologies and applied sciences::TTA Acoustic and sound engineering
thema EDItEUR::M Medicine and Nursing::MB Medicine: general issues::MBG Medical equipment and techniques::MBGR Medical research
thema EDItEUR::P Mathematics and Science::PH Physics::PHD Classical mechanics::PHDS Wave mechanics (vibration and acoustics)
thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TG Mechanical engineering and materials::TGM Materials science::TGMF Engineering: Mechanics of fluids::TGMF1 Aerodynamics
Lodermeyer, Alexander
A laser-based technique to evaluate sound generation during phonation
title A laser-based technique to evaluate sound generation during phonation
title_full A laser-based technique to evaluate sound generation during phonation
title_fullStr A laser-based technique to evaluate sound generation during phonation
title_full_unstemmed A laser-based technique to evaluate sound generation during phonation
title_short A laser-based technique to evaluate sound generation during phonation
title_sort laser based technique to evaluate sound generation during phonation
topic particle image velocimetry
acoustics
sound generation
phonation
vibrometrie
measurement technology
fluid mechanics
thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TT Other technologies and applied sciences::TTA Acoustic and sound engineering
thema EDItEUR::M Medicine and Nursing::MB Medicine: general issues::MBG Medical equipment and techniques::MBGR Medical research
thema EDItEUR::P Mathematics and Science::PH Physics::PHD Classical mechanics::PHDS Wave mechanics (vibration and acoustics)
thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TG Mechanical engineering and materials::TGM Materials science::TGMF Engineering: Mechanics of fluids::TGMF1 Aerodynamics
topic_facet particle image velocimetry
acoustics
sound generation
phonation
vibrometrie
measurement technology
fluid mechanics
thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TT Other technologies and applied sciences::TTA Acoustic and sound engineering
thema EDItEUR::M Medicine and Nursing::MB Medicine: general issues::MBG Medical equipment and techniques::MBGR Medical research
thema EDItEUR::P Mathematics and Science::PH Physics::PHD Classical mechanics::PHDS Wave mechanics (vibration and acoustics)
thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TG Mechanical engineering and materials::TGM Materials science::TGMF Engineering: Mechanics of fluids::TGMF1 Aerodynamics
url ONIX_20260106T140303_9783961472925_32
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